{"title":"热解两步缩合生物油的生产和特性分析","authors":"Lidia Benedini , Claus Dalsgaard Jensen , Jesper Ahrenfeldt , Ulrik Birk Henriksen","doi":"10.1016/j.jaap.2024.106744","DOIUrl":null,"url":null,"abstract":"<div><p>The goal of this project is to investigate the potential of fuel production directly from slow pyrolysis of straw pellets without further refining. A two-step condensation was used to separate liquids from the volatiles. The thermal process chosen is slow pyrolysis at 500°C to couple the fuel production with carbon capture by maximizing the char production alongside bio-oils collection. Condensation parameters were tuned to improve the pyrolysis oil quality. To assess the oil quality some requirements on marine fuels, bio-oils and boiler fuels were taken as reference. Three condensation conditions were inspected: the best pyrolysis overall process was repeated three times for a total of five pyrolysis processes (lately referred to as runs). As expected, the bio-oil characteristic changed with the condensation temperature. As a result of lowering the bio-oil condensation temperature, the bio-oil results less viscous, less dense, with lower heating value and with higher water content. The final bio-oil produced was almost compliant to ISO 8217:2017 for residual marine fuels K 380, apart from water content and acid number, while it was almost compliant for the standard EN 16900:2017 for industrial boilers fuels, apart for the kinematic viscosity. It was assessed that the char is produced with an average yield of 27 w% on dry basis, while bio-oil has a yield between 5 and 10 w%. It is possible to recover an average of 72 % of the total energy contained in the straw in the valuable products, gas, char and bio-oil. The carbon captured with charcoal was around 49 w% of the total present in straw. The pyrolysis experiments were performed using an innovative semi-batch, packed-bed reactor with gas re-circulation and a new two-fraction condensation appliance that is DTU patented. The innovation is both in the reactor, where the gas is directly heated and flushed back into the pyrolyser, and in the condensation section, where the bio-oil is separated from the water fraction during the pyrolysis. The company Stiesdal SkyClean A/S showed interest in further development and scale up of this pyrolysis and condensation system.</p></div>","PeriodicalId":345,"journal":{"name":"Journal of Analytical and Applied Pyrolysis","volume":"183 ","pages":"Article 106744"},"PeriodicalIF":5.8000,"publicationDate":"2024-09-07","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0165237024003991/pdfft?md5=24767611503f99efec21da9e3bb14c33&pid=1-s2.0-S0165237024003991-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Production and characterization of two-step condensation bio-oil from pyrolysis\",\"authors\":\"Lidia Benedini , Claus Dalsgaard Jensen , Jesper Ahrenfeldt , Ulrik Birk Henriksen\",\"doi\":\"10.1016/j.jaap.2024.106744\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>The goal of this project is to investigate the potential of fuel production directly from slow pyrolysis of straw pellets without further refining. A two-step condensation was used to separate liquids from the volatiles. The thermal process chosen is slow pyrolysis at 500°C to couple the fuel production with carbon capture by maximizing the char production alongside bio-oils collection. Condensation parameters were tuned to improve the pyrolysis oil quality. To assess the oil quality some requirements on marine fuels, bio-oils and boiler fuels were taken as reference. Three condensation conditions were inspected: the best pyrolysis overall process was repeated three times for a total of five pyrolysis processes (lately referred to as runs). As expected, the bio-oil characteristic changed with the condensation temperature. As a result of lowering the bio-oil condensation temperature, the bio-oil results less viscous, less dense, with lower heating value and with higher water content. The final bio-oil produced was almost compliant to ISO 8217:2017 for residual marine fuels K 380, apart from water content and acid number, while it was almost compliant for the standard EN 16900:2017 for industrial boilers fuels, apart for the kinematic viscosity. It was assessed that the char is produced with an average yield of 27 w% on dry basis, while bio-oil has a yield between 5 and 10 w%. It is possible to recover an average of 72 % of the total energy contained in the straw in the valuable products, gas, char and bio-oil. The carbon captured with charcoal was around 49 w% of the total present in straw. The pyrolysis experiments were performed using an innovative semi-batch, packed-bed reactor with gas re-circulation and a new two-fraction condensation appliance that is DTU patented. The innovation is both in the reactor, where the gas is directly heated and flushed back into the pyrolyser, and in the condensation section, where the bio-oil is separated from the water fraction during the pyrolysis. 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引用次数: 0
摘要
该项目的目标是研究无需进一步提炼,直接从秸秆颗粒的缓慢热解中生产燃料的潜力。采用两步冷凝法从挥发物中分离出液体。所选的热处理工艺是在 500°C 温度下进行缓慢热解,通过最大限度地产生炭,同时收集生物油,将燃料生产与碳捕获结合起来。对冷凝参数进行了调整,以提高热解油的质量。为了评估油的质量,参考了船用燃料、生物油和锅炉燃料的一些要求。对三种冷凝条件进行了检查:最佳热解总过程重复三次,共进行了五次热解过程(以下称为运行)。不出所料,生物油的特性随冷凝温度的变化而变化。生物油冷凝温度降低后,生物油的粘度降低,密度减小,热值降低,含水量增加。最终生产的生物油除了含水量和酸数之外,几乎符合 ISO 8217:2017 关于残余船用燃料 K 380 的标准,而除了运动粘度之外,几乎符合 EN 16900:2017 关于工业锅炉燃料的标准。经评估,以干基计,焦炭的平均产率为 27%,而生物油的产率为 5 至 10%。在有价值的产品(气体、木炭和生物油)中,平均可回收秸秆中总能量的 72%。用木炭捕获的碳约占秸秆总量的 49%。热解实验采用了一种创新的半间歇式填料床反应器,该反应器带有气体再循环装置和一种新的双馏分冷凝装置,该装置已获得德国技术大学的专利。创新之处在于反应器和冷凝部分,前者直接加热气体并将其冲回热解器,后者在热解过程中将生物油与水分离。Stiesdal SkyClean A/S 公司表示有兴趣进一步开发和扩大这种热解和冷凝系统。
Production and characterization of two-step condensation bio-oil from pyrolysis
The goal of this project is to investigate the potential of fuel production directly from slow pyrolysis of straw pellets without further refining. A two-step condensation was used to separate liquids from the volatiles. The thermal process chosen is slow pyrolysis at 500°C to couple the fuel production with carbon capture by maximizing the char production alongside bio-oils collection. Condensation parameters were tuned to improve the pyrolysis oil quality. To assess the oil quality some requirements on marine fuels, bio-oils and boiler fuels were taken as reference. Three condensation conditions were inspected: the best pyrolysis overall process was repeated three times for a total of five pyrolysis processes (lately referred to as runs). As expected, the bio-oil characteristic changed with the condensation temperature. As a result of lowering the bio-oil condensation temperature, the bio-oil results less viscous, less dense, with lower heating value and with higher water content. The final bio-oil produced was almost compliant to ISO 8217:2017 for residual marine fuels K 380, apart from water content and acid number, while it was almost compliant for the standard EN 16900:2017 for industrial boilers fuels, apart for the kinematic viscosity. It was assessed that the char is produced with an average yield of 27 w% on dry basis, while bio-oil has a yield between 5 and 10 w%. It is possible to recover an average of 72 % of the total energy contained in the straw in the valuable products, gas, char and bio-oil. The carbon captured with charcoal was around 49 w% of the total present in straw. The pyrolysis experiments were performed using an innovative semi-batch, packed-bed reactor with gas re-circulation and a new two-fraction condensation appliance that is DTU patented. The innovation is both in the reactor, where the gas is directly heated and flushed back into the pyrolyser, and in the condensation section, where the bio-oil is separated from the water fraction during the pyrolysis. The company Stiesdal SkyClean A/S showed interest in further development and scale up of this pyrolysis and condensation system.
期刊介绍:
The Journal of Analytical and Applied Pyrolysis (JAAP) is devoted to the publication of papers dealing with innovative applications of pyrolysis processes, the characterization of products related to pyrolysis reactions, and investigations of reaction mechanism. To be considered by JAAP, a manuscript should present significant progress in these topics. The novelty must be satisfactorily argued in the cover letter. A manuscript with a cover letter to the editor not addressing the novelty is likely to be rejected without review.
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